[1]Six J, Paustain K, Eillott E T, Combrink C. Soil structure and organic matter: I. Distribution of aggregate-size classes and aggregate- associated carbon. Soil Science Society of America Journal, 2000, 64: 607-689.[2]Cambardella C A, Elliott E T. Carbon and nitrogen dynamics of soil organic matter fractions from cultivated grassland soils. Soil Science Society of America Journal, 1994, 58: 123-130.[3]Six J, Eilliott E T, Paustian K, Doran J W. Aggregation and soil organic matter accumulation in cultivated and native grassland soils. Soil Science Society of America Journal, 1998, 62: 1367-1377.[4]Puget P, Chenu C, Balesdent J. Total young organic matter distributions in aggregate of silly cultivated soils. European Journal of Soil Science, 1995, 46: 449-459.[5]Cambardella C A, Elliott E T. Carbon and nitrogen distribution in aggregates from cultivated and native grassland soils. Soil Science Society of America Journal, 1993, 57: 1071-1076.[6]Besnard E, Chenu C, Balesdent J, Puget P, Arrouays D. Fate of particulate organic matter in soil aggregates during cultivation. European Journal of Soil Science, 1996, 47: 495-503.[7]梁爱珍, 杨学明, 张晓平, 申艳, 时秀焕, 范如芹, 方华军. 免耕对东北黑土水稳性团聚体中有机碳分配的短期效应. 中国农业科学, 2009, 42(8): 2801-2808.Liang A Z, Yang X M, Zhang X P, Shen Y, Shi X H, Fan R Q, Fang H J. Short-term impacts of no tillage on soil organic carbon associated with water-stable aggregates in black soil of northeast China. Scientia Agricultura Sinica, 2009, 42(8): 2801-2808. (in Chinese) [8]Puget P, Chenu C, Balesdent J. Dynamics of soil organic matter associated with particle-size fractions of water-stable aggregates. European Journal of Soil Science, 2000, 51: 595-605.[9]Christensen B T. Physical fractionation of soil and structural and functional complexity in organic matter turnover. European Journal of Soil Science, 2001, 52: 345-353.[10]Von Lützow M, Kögel-Knabner I, Ekschmitt K, Flessa H, Guggenberger G, Matzner E, Marschner B. SOM fraction methods: Relevance to functional pools and stabilization mechanisms. Soil Biology and Biochemistry, 2007, 39: 2183-2207.[11]窦森. 土壤有机质. 北京: 科学出版社, 2010.Dou S. Soil Organic Matter. Beijing: Science Press, 2010. (in Chinese)[12]Pallo F J P. Evolution of organic matter in some soils under shifting cultivation practices in Burkina Faso//Soil Organic Matter Dynamics and Sustainability of Tropical Agriculture. Chichester, UK: John Wiley and Sons, 1993: 77-88.[13]Christensen B T, Sorensen L H. The distribution of native and labeled carbon between soil particle-size fractions isolated from long-term incubation experiments. Soil Science, 1985, 36: 219-229.[14]Feller C, Beare M H. Physical control of soil organic matter dynamics in the tropics. Geoderma, 1997, 79: 69-116. [15]窦森, 李凯, 关松. 土壤团聚体中有机质研究进展. 土壤学报, 2011, 48(2): 412-418.Dou S, Li K, Guan S. A review on organic matter in soil aggregates. Acta Pedologica Sinica, 2011, 48(2): 412-418. (in Chinese)[16]关连珠, 张伯泉, 颜丽. 不同肥力黑土、棕壤微团聚体组成及其胶结物质的研究. 土壤学报, 1991,28(3): 260-267.Guan L Z, Zhang B Q, Yan L. Composition of microaggregate and cementing substances in black soils and brown forest soils with different fertility levels. Acta Pedologica Sinica, 1991, 28(3): 260-267. (in Chinese)[17]Beare M H, Hendrix P F, Coleman D C. Water stable aggregates and organic matter fractions in conventional and no tillage soils. Soil Science Society of America Journal, 1994, 58: 777-786.[18]王清奎, 汪思龙. 土壤团聚体形成与稳定机制及影响因素. 土壤通报, 2005, 36(3): 415-421.Wang Q K, Wang S L. Forming and stable mechanism of soil aggregate and influencing factors. Chinese Journal of Soil Science, 2005, 36(3): 415-421. (in Chinese)[19]刘晓利, 何园球, 李成亮, 姜灿烂, 陈平帮. 不同利用方式旱地红壤水稳性团聚体及其碳、氮、磷分布特征. 土壤学报, 2009, 46(2): 255-261.Liu X L, He Y Q, Li C L, Jiang C L, Chen P B. Distribution of soil water-stable aggregate and organic C, N and P in upland red soil. Acta Pedologica Sinica, 2009, 46(2): 255-261. (in Chinese)[20]唐晓红, 邵景安, 黄雪夏, 魏朝富, 谢德体, 潘根兴. 垄作免耕下紫色水稻土有机碳的分布特征. 土壤学报, 2007, 44(2): 235-242.Tang X H, Shao J A, Huang X X, Wei C F, Xie D T, Pan G X. Distribution of organic carbon in purple paddy filed under long-term non-tillage ridge culture. Acta Pedologica Sinica, 2007, 44(2): 235- 242. (in Chinese)[21]Six J, Bossuyt H, Degryze S, Denef K. History of research on the link between (micro) aggregates, soil biota, and soil organic matter dynamics. Soil and Tillage Research, 2004, 79: 7-31.[22]刘满强, 胡锋, 陈小云. 土壤有机碳稳定机制研究进展. 生态学报, 2007, 27(6): 2642-2649.Liu M Q, Hu F, Chen X Y. A review on mechanism of soil organic carbon stabilization. Acta Ecologica Sinica, 2007, 27(6): 2642-2649. (in Chinese)[23]Caravaca E, Lax A, Albaladeio J. Aggregate stablity and carbon characteristics of particle-sized fractions in cultivated and forested soils of semiarid Spain. Soil and Tillage Reasearch, 2004, 78: 83-90.[24]Shrestha B M, Singh B R, Sitaula B K, Lal R, Bajracharya R M. Soil aggregate and particle-associated organic carbon under different land uses in Nepal. Soil Science Society of America Journal, 2007, 71: 1194-1203.[25]He N P, Wu L, Wang Y S, Han X G. Changes in carbon and nitrogen in soil particle-size fractions along a grassland restoration chronosequence in northern China. Geoderma, 2009, 150: 302-308.[26]Covaleda S, Pajares S, Gallardo J F, Etchevers J D. Short-term changes in C and N distribution in soil particle size fractions induced by agricultural practices in a cultivated volcanic soil from Mexico. Organic Geochemistry, 2006, 37(12): 1943-1948.[27]Tisdall J M, Oades J M. Organic matter and water-stable aggregates in soils. Journal of Soil Science, 1982, 33(2): 141-163.[28]Lugato E, Simonetti G, Morari F, Nardi S, Berti A, Giardini L. Distribution of organic and humic carbon in wet-sieved aggregates of different soils under long-term fertilization experiment. Geoderma, 2010, 157: 80-85.[29]Bongiovanni M D, Lobartini J C. Particulate organic matter, carbohydrate, humic acid contents in soil macro- and micro- aggregates as affected by cultivation. Geoderma, 2006, 136, 660-665.[30]武天云, Jeff J. Schoenau, 李凤民, 钱佩源, 张树清, Sukhadev S M, 王方. 土壤有机质概念和分组技术研究进展. 应用生态学报, 2008, 15(4): 712-714.Wu T Y, Schoenau J J, Li F M, Qian P Y, Zhang S Q, Sukhadev S M, Wang F. Concepts and relative analytical techniques of soil organic matter. Chinese Journal of Applied Ecology, 2008, 15(4): 712-714. (in Chinese)[31]Zhang H L, Thompson M L, Sandor J A. Compositional differences in organic matter among cultivated and uncultivated Argiudolls and Hapludalfs derived from loess. Soil Science Society of America Journal, 1988, 52: 216-222. |